NASA’s two rockets are ready to detect the mysteries of missions andrs, the aim is why they facilitate flicker, pulsate or dark patches. These rockets part of NASA’s effort to understand the Earth’s space atmosphere will be launched from Poker Flat Research Range in Fairbanks, Alaska starting from January 21, 2025. Conclusions can contribute to the protection of astronauts and spacecraft from the effects of spacecraft, such as corerus. The planet’s magnetosphere and space are closely connected to the particles charged.
Giraffe mission to investigate pulsed andorus
According to ground imaging for the rocket check of the Orral Fast Features (Giraffe) mission, two rockets equipped with similar equipment will target specific Arora sub -factories. A rocket will focus on rapidly-moved andorus, glowing a few times per second, while the other will study the twinkle and the other, which takes a nap 15 times per second. As Informed By an official press release by NASA, according to Robert Michael, a space physicist at NASA’s Goddard Space Flight Center and chief investigator of the giraffe mission, Robert Michael will analyze the data energy levels, electron volume and time of arrival, which will be analyzed These will be to determine the mechanisms driving them. Event.
Black Arora event ascertain
NASA’s Goddard Space Flight Center will also study the Black and Diffuse Aurora Science Surveyor Mission, “Black Ororus”, where deep patch appears within the Orral display. These areas are suspected to be reversed in electron currents, which saves electrons to avoid electrons rather than hitting atmospheric particles. According to Samara, outgoing electrons are required to be detected to separate the actual black Arora, making rocket equipment important for study.
Challenges targeting dynamic andorus
The launch properly presents a significant challenge to the launch to prevent moving and moving forward. Ground-based cameras at the launch site and at Veneti, Alaska, will monitor more movements to predict their trajectory. Both mission teams rely too much on experience and intuition to ensure success, highlighting the complexity of studying these fleeting natural light displays.
